CN1183779A - Process for preparing HIV protease inhibitors from (2S) -4-picolyl-2-piperazine-tert-butylcarboxamide - Google Patents

Process for preparing HIV protease inhibitors from (2S) -4-picolyl-2-piperazine-tert-butylcarboxamide Download PDF

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CN1183779A
CN1183779A CN96193730A CN96193730A CN1183779A CN 1183779 A CN1183779 A CN 1183779A CN 96193730 A CN96193730 A CN 96193730A CN 96193730 A CN96193730 A CN 96193730A CN 1183779 A CN1183779 A CN 1183779A
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D·阿斯金
K·K·恩格
P·雷德尔
R·P·沃兰特
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Abstract

A method for preparing clinically effective HIV protease inhibitors by another convergent synthesis method using (2S) -4-picolyl-2-piperazine-tert-butylcarboxamide as an intermediate, eliminating one step in the synthesis.

Description

Prepare the method for hiv protease inhibitor by (2S)-4-picolyl-2-piperazine-tert-butylformamide
Background of invention
The present invention and Merck 18996, U.S.S.N.08/059,038, the applying date is on May 7th, 1993 and Merck 19045,19046IA, MRL 94/005,19182, MRL94/143,19114 is relevant with 19115.
But the present invention relates to a kind of new intermediate and relate to the synthetic method of the compound of HIV inhibiting (HIV) encoded protein enzyme, particularly relate to some oligopeptide analogue, for example as the compound J described in the following embodiment.These compounds infect, treat the HIV infection for prevention HIV and treatment acquired immune deficiency syndrome (AIDS) (AIDS) has useful value.These compounds also can be used for suppressing feritin and proteolytic enzyme.
The present invention relates to a kind of method for preparing hiv protease inhibitor J by 4-picolyl piperazine carboxamides 1 through two-step approach.Described piperazine 1 condenses with epoxide 2, obtains coupling product 3.The acetonide protecting group that removes in 3 can directly obtain HIV-1 proteinase inhibitor J.
Figure A9619373000051
The retrovirus that is called as human immunodeficiency virus (HIV) is the nosetiology reagent of comprehensive disease, and described comprehensive disease comprises carrying out property immunity system destruction (acquired immune deficiency syndrome (AIDS); AIDS) and maincenter and peripheral nervous system sex change.This viroid is known LAV, HTLV-III or ARV.The common feature that retrovirus duplicates is that the proteic back of precursor polymeric translation process is huger, and it is to generate the virus assembling and operate required sophisticated viral protein by the encoded protein enzyme.Suppress the generation that this process then can stop common infective virus.For example, Kohl, people such as N.E. be in Proc.Nat ' l Acad.Sci., points out in 85,4686 (1988), and with HIV encoded protein enzyme inactivation of gene, that the result can produce is jejune, the communicable virion of tool not.These results show that the restraining effect of hiv protease has indicated the feasible method that a kind of AIDS of treatment and prevention or treatment HIV infect.
The nucleotide sequence of HIV shows have pol gene [Ratner, people such as L., Nature, 313,277 (1985)] in the readable framework of an opening.The homology of aminoacid sequence provides evidence [Toh, people such as H., EMBOJ, 4,1267 (1985) for pol sequence encoding ThermoScript II, endonuclease and hiv protease; Power, people such as M.D., Science, 231,1567 (1986); Pearl, people such as L.H., Natuer, 329,351 (1987)].Can be the hiv protease inhibitor by described new intermediate and with the described final product compound that comprises some oligopeptide analogue that the inventive method makes, they are disclosed in open day be the EPO541 on May 12nd, 1993, in 168.For example, referring to compound J described herein.
Known, the synthetic reaction through the 12-step of compound J and allied compound finished, and this method is disclosed among the EPO 541,168.In art methods; described hiv protease inhibitor J prepares by following method; be about to piperazine carboxamides 4 couplings of described epoxide intermediates 2 and Boc-protection; obtain the intermediate 5 of the coupling of described Boc-protection; then with 5 deprotections; obtain second from the bottom kind of compound 6, it carry out picolylization, obtain J.The shortcoming of this method need to be 3 step chemical reactions just described epoxide 2 can be transformed into J.Like this, behind deprotection, need one independently the picolyl step to change into the reaction of J.Because before coupling, the active 4-of having more of described piperazine carboxamides position must be protected, for chirality 2-piperazine-tert-butylformamide, the most effective guard method will be to introduce 3-picolyl group at this moment simultaneously.But unexpected is that because piperazine 1 contains three basic amine functional groups can attacking described epoxide 2, so the reaction between piperazine 1 and the epoxide 2 will be efficiently.And because the piperazine 4 of described Boc-protection only contains a basic amine functional group, like this, what can anticipate is that the coupled reaction between 2 and 4 will be direct.
The inventive method has been saved a step, and advantage has been to simplify the building-up process of very complicated compound J.The inventive method is short and efficient.The invention summary
The invention provides the method for aggregating into of closing that another has saved unnecessary synthesis step and can obtain higher yields.Described product compound J can be used as the inhibitor of hiv protease, feritin and other proteolytic enzyme.Detailed Description Of The Invention
The invention provides a kind of method of synthetic following structural formula compound:
Figure A9619373000091
Described method comprises the following steps:
(a) about 25 ℃ to about 150 ℃ of temperature ranges, with the monovalent following formula: compound Following formula: compound with about monovalent
Figure A9619373000093
Mixture heating up at least one hour, described mixture can at random contain suitable solvent;
(b) with acid treatment carry out deprotection and
(c) the described acid that neutralizes obtains required compound.
In one embodiment, the invention provides a kind of method of synthetic following structural compounds: Described method comprises the following steps:
(a) about 65 ℃ to about 85 ℃ of temperature ranges, with the monovalent following formula: compound
Figure A9619373000102
Following formula: compound with about monovalent
Figure A9619373000111
Mixture heating up at least one hour, described mixture can at random contain as the methyl alcohol of solvent or Virahol or its mixture;
(b) described mixture is cooled to about 0 ℃;
(c) carry out deprotection with HCl gas; With
(d) with the NaOH neutralization, obtain required compound.
The invention still further relates to following formula: compound
Described coupled reaction can not have or in all kinds of SOLVENTS by heating described piperazine 1 and described epoxide 2 carries out.Described coupled reaction can be at 25 ℃-150 ℃, preferred 50 ℃-120 ℃, most preferably carry out in 65 ℃ of-85 ℃ of temperature ranges.Required solvent comprises ester for example ethyl acetate, acetate isopropyl esters, ro-butyl acetate in this step; Acetonitrile; Alcohol is methyl alcohol, ethanol, n-propyl alcohol, propyl carbinol, the trimethyl carbinol, tertiary amyl alcohol and Virahol for example; Hydrocarbon is hexanaphthene and toluene for example; Ether is THF and DME for example; And methane amide DMF for example.Preferred solvent is an alcohol, most preferably is methyl alcohol and Virahol.
Intermediate 3 carries out through the available ordinary method of reaction that deprotection forms J, promptly in alcoholic solvent with for example HCl gas disposal or with the processing of the HCl aqueous solution, most preferred method is to use the HCl gas disposal of strong acid.
Product of the present invention can be used for suppressing for example AIDS of infection that hiv protease, prevention or treatment human immunodeficiency virus (HIV) cause and treatment Secondary cases pathological conditions.The infection that described treatment AIDS or prevention or treatment HIV cause comprises, but be not limited only to, treat catching that various HIV cause: AIDS, ARC (syndromes relevant with AIDS) have symptom and asymptomatic and manifest or latent and HIV diseases associated.For example, be used in suspection with the final product compound of the method for the invention and intermediate preparation and once contacted back HIV with HIV and infect, for example blood transfusion, organ transplantation, body fluid exchange, bite, accidental needle sticks or expose at surgery intra-operative patient blood.
Described final product hiv protease inhibitor also can be used for the preparation of antiviral compound and carries out shaker test.For example, the final product compound can be used for separating the enzyme mutant body, and this is the effective ways that screen more effective antiviral compound.In addition, for example suppress by competition, this compounds also can be used for setting up or determining the binding site of other antiviral compounds and hiv protease.Like this, be can be for this purpose and the product of selling with the final product compound of the method for the invention and intermediate preparation with commercial value.
Final product hiv protease inhibitor compound J is compound or its pharmaceutically useful salt or the hydrate with following structure: The called after N-of compound J (2 (R)-hydroxyls-2,3-indane-1 (S)-yl)-2 (R)-phenmethyl-4 (S)-hydroxyl-5-(1-(4-(3-pyridylmethyl)-2 (S)-N '-(tertiary butyl formamido group)-piperazinyl)) valeramide; [1S-[1 α [α S *, γ R *, δ (R *)], 2 α]]-N-(2,3-dihydro-2-hydroxyl-1H-indenes-1-yl)-2-[[(1, the 1-dimethyl ethyl) amino] carbonyl]-γ-hydroxyl-α-(phenmethyl)-4-(3-pyridylmethyl)-2-piperazine valeramide; Or N-(1 (S)-2,3-dihydro-2 (R)-hydroxyl-1H-indenyl)-4 (S)-hydroxyl-2 (R)-phenmethyl-5-[4-(3-pyridylmethyl)-2 (S)-tertiary butyl formamyls) piperazinyl] valeramide.
The hiv protease inhibitor compound of available the inventive method preparation is disclosed in EPO541,164.Described hiv protease inhibitor can pharmaceutical composition form be administered to the patient who needs this kind treatment, described pharmaceutical composition contains described compound or its pharmaceutically useful salt of pharmaceutical carrier and treatment significant quantity.The salt and the dosage of appropriate drug preparation, application method, described compound are disclosed among the EPO 541,164.
Compound of the present invention can contain asymmetric center and can racemoid, racemic mixture and single diastereomer or enantiomeric form exist, wherein all isomeric forms include within the scope of the present invention.
In arbitrary structure, when changing group (for example aryl) and having unnecessary a kind of situation, the definition under each situation all is independent of the definition under other various situations when any.In addition, have only when substituting group and/or the combination that can change group can cause stable compound, this kind combination is only allows.
Utilize the representative test method of the inventive method as mentioned below.These methods only are used to illustrate, and novel method of the present invention is not played the qualification effect.
Embodiment 1 piperazine-2-tert-butylformamide 8
Figure A9619373000131
2-piperazine carboxylic acid (7) 3.35kg (27mol) oxalyl chloride 3.46kg (27.2mol) tert-butylamine (KF=460 μ g/ml) 9.36L (89mol) EtOAc (KF=56 μ g/ml) 27LDMF 120ml1-propyl alcohol 30L
Under nitrogen atmosphere, in the 72L there-necked flask of mechanical stirrer is housed, carboxylic acid 7 is suspended in 27LEtOAc and 120ml DMF, and suspension is chilled to 2 ℃.Add oxalyl chloride, holding temperature is between 5-8 ℃.
Reinforced process was finished in 5 hours.In reinforced exothermic process, CO and CO are arranged 2Emit.Still there is a large amount of HCl that is generated in the solution.The precipitation that is generated may be the HCl salt of described piperazine acyl chlorides.Reaction all standing by making dry-out sample with tert-butylamine detects the formation of described acyl chlorides.Reaction is when finishing, and still has<0.7% acid 7.
It is crucial that the reaction performance that forms described acyl chlorides is detected, because if reaction is not finished, the result can cause forming two-tertiary butyl oxamide impurity.
Reaction can detect with HPLC: 25cm Dupont Zorbax RXC8 post, and flow velocity is 1ml/min and detects under 250nm; Linear gradient is by 98%0.1%H 3PO 4The aqueous solution and 2%CH 3CN to 50%H 3PO 4The aqueous solution and 2%CH 3CN, 30 minutes.Retention time: sour 7=10.7 minute, acid amides 8=28.1 minute.
Described reaction mixture was worn out 1 hour down in 5 ℃.With gained pulpous state liquid cooling to 0 ℃,, interior temperature adds tert-butylamine so that being lower than 20 ℃ speed.
Reinforced process need 6 hours reacts very exothermic therebetween.By steaming the tert-butylamine hydrochloride that is generated on a small quantity with loose white solid form in the reaction.
Mixture was worn out 30 minutes under 18 ℃ again, remove by filter the ammonium salt that is settled out, filter cake washs with 12L EtOAc.The organic phase 6L 3%NaHCO that merges 3With the saturated NaCl solution washing of 2 * 2L.Organic phase is handled and is filtered through Solka Flok with 200g Darco G60 carbon, and filter cake washs with 4LEtOAc.
Fully handle some purples that to remove described product with carbon.
Under 10 millibars, the EtOAc solution concentration with 8 is to 25% of original volume.Adding 30L 1-propyl alcohol also distills, and reaches 20L until final volume.
At this moment, EtOAc is lower than 1The limit value (<1%) that H NMR detects.The interior temperature of this solution changes<30 ℃.1-propyl alcohol/EtOAc solution with 3 refluxed 7 days down in normal pressure.
With the aliquots containig evaporation, obtain brown solid, m.p.87-88 ℃. 13C?NMR(75MHz,CDCl 3,ppm)161.8,146.8,145.0,143.8,142.1,51.0,28.5.
The embodiment 2 racemizes-2-tertiary butyl-methane amide-piperazine 9
Figure A9619373000151
Raw material
The 1-propanol solution 12L of piperazine-2-tert-butylformamide 82.4kg (13.4mol), 20%Pd (OH) 2/ C 16wt.% water 144g
Piperazine-2-tert-butylformamide 8/1-propanol solution is placed 5 gallon autoclave, add catalyzer and with mixture in 40psi (3atm) H 2, carry out hydrogenation under 65 ℃.
After 24 hours, hydrogen and GC that reaction consumes is fallen theoretical amount show 8<1%.With the mixture cooling, use N 2The flushing and through Solka Floc filtration catalizer.Catalyzer washs with the warm 1-propyl alcohol of 2L.
Find, in the washing leaching cake process, wash the loss that can improve filtering situation and reduce product in the filter cake with warm 1-propyl alcohol.
Described reaction is monitored with GC: 30m Megabore post by 100 ℃ to 160 ℃, continues 5 minutes with 10 ℃/min, then with 10 ℃/min to 250 ℃, retention time: 8=7.0 minute, 9=9.4 minute.Described reaction also can be monitored with TLC, makes solvent and makes developping agent with triketohydrindene hydrate with EtOAc/MeOH (50: 50).
With aliquots containig evaporation, the overall yield of amidation and hydrogenation is that 88% and 9 concentration is 133g/L.
With the aliquots containig evaporation, obtain white solid 9, m.p.150-151 ℃;
13C?NMR(75MHz,D 2O,ppm)173.5,59.8,52.0,48.7,45.0,44.8,28.7。
Two (the S)-camsilates (S)-10 of embodiment 3 (the S)-2-tertiary butyl-methane amide-piperazine Raw material racemize-2-the tertiary butyl-methane amide-piperazine 9 4.10kg (22.12mol) in 1-propanol solution 25.5kg solvent in (S)-(+)-10-camphorsulfonic acid 10.0kg (43.2mol) 1-propyl alcohol 12L acetonitrile 39L water 2.4L
The 1-propanol solution of amine 9 is joined in the 100L flask that is connected with thickener in batches, under 10 millibars and temperature<25 ℃, solution concentration to volume is about 12L.
At this moment, be settled out product in the solution, but when with mixture heating up to 50 ℃, product is dissolved in the solution again.
The homogeneous phase aliquots containig is carried out analysis revealed, and 9 concentration is 341g/L, and described concentration is measured with HPLC: 25cm Dupont Zorbax RXC8 post, flow velocity are 1.5ml and detect under 210nm, isocyatic (98/2) CH 3CN/0.1%H 3PO 4The aqueous solution.9 retention time: 2.5 minutes.
Add acetonitrile (39L) and water (2.4L), obtain a clarifying brown solutions.
Content and usefulness through KF titration determination water 1H NMR integration is measured CH 3The ratio of CN/1-propyl alcohol shows CH 3CN/1-propyl alcohol/H 2The ratio of O is 26/8/1.6.Strength of solution is 72.2g/L.
In 20 ℃ in following 30 minutes, divide 4 parts of adding (S)-10-camphorsulfonic acids, temperature is risen to 40 ℃ after adding CSA.Behind the several minutes, form a heavy-gravity white precipitate.White soup compound is heated to 76 ℃, makes all solids dissolving, in 8 hours, make described brown solutions be cooled to 21 ℃ then.
In 62 ℃ of product precipitations of ordering, under 21 ℃, product is filtered filter cake 5LCH without wearing out 3CN/1-propyl alcohol/H 2The washing of O 26/8/1.6 solvent mixture.It is used N under 35 ℃ in vacuum drying oven 2Carry out drying, obtain 5.6kg (39%) 10, be white crystals shape solid, m.p.288-290 ℃ (decomposition), [α] D 25=18.9 ° of (c=0.37, H 2O). 13C?NMR(75MHz,D 2O,ppm)222.0,164.0,59.3,54.9,53.3,49.0,48.1,43.6,43.5,43.1,40.6,40.4,28.5,27.2,25.4,19.9,19.8。
According to the ee of chirality HPLC assay determination raw material what follows is 95%: the aliquots containig with 10 (33mg) is suspended in 4ml EtOH and 1ml Et 3Among the N.Add Boc 2O (11mg) also made reaction mixture aging 1 hour.Remove fully under the vacuum and desolvate, resistates is dissolved among about 1ml EtOAc and with EtOAc makes eluent, through SiO is housed 2The Pasteur volumetric pipette filter.Ratio with about 1mg/ml is dissolved in the product stream part of evaporating in the hexane again, carries out Chiral Separation on Daicel Chiracell AS post, uses hexane/IPA (97: 3) solvent systems, and flow velocity is 1ml/min and detects under 228nm.Retention time: S enantiomorph=7.4 minute, R=9.7 minute.
Synthesizing of embodiment 4 (S)-4-(3-picolyl)-2-tert-butylformamide piperazine (1)
Figure A9619373000171
Two 7.15g (11mmol) (+) CSA salt (10) 3-pyridylaldehyde 1.04ml (11mmol) titanium isopropylate (IV) 4ml (13.7mmol) the sodium cyanoborohydride 0.47g (7.5mmol) of 2 (S)-tert-butylformamide piperazines
The soup compound of two (+)-CSA salt of 2 (S)-tert-butylformamide piperazines in 30ml 1-propyl alcohol also used the saturated aqueous sodium sulfate washed twice twice with the 25%NaOH solution washing.With uniform 1-propyl alcohol phase concentrating under reduced pressure, obtain 1.30g (94%) white solid 2 (S)-tert-butylformamide piperazines.Be suspended in 2 (S)-tert-butylformamide piperazine crude products in the 20ml toluene and add described aldehyde, add titanium isopropylate (IV) subsequently.Reaction becomes black, after stirring 2 hours under 20 ℃, adds sodium cyanoborohydride.Stir after 18 hours, add 50ml EtOH, filtering precipitates and washs with EtOAc.Organic phase evaporation with merging obtains a yellow oil (2.3g), with it in SiO 2Enterprising circumstances in which people get things ready for a trip spectrum is separated (EtOAc/MeOH 50/50), will contain stream part evaporation of product, obtains 1.20g 2 (S)-tert-butylformamide-4-(3-picolyl)-piperazine (40%).
Embodiment 5N-[2 (R)-hydroxyl-2,3-dihydro-1 (S)-indenyl]-5-[(2 (S)-tertiary butyl aminocarboxyl)-4-(3-picolyl) Piperazino]-4 (S)-hydroxyl-2 (R)-phenmethyls-valeramide monohydrate (JH 2O)
Figure A9619373000181
(2S)-4-(3-picolyl)-2-tertiary butyl 7.9g (28.5mmol) formamide piperazine (1) [3aS-[3[2S *, 3 (R *)], 3a α, 8a α]]-3,10.0g (26.5mmol) 3a, 8,8a-tetrahydrochysene-2,2-dimethyl 3-[3-(2-Oxyranyle)-1-oxo-2-(phenmethyl) propyl group]-2H-indeno [1,2, d]-oxazoles (2) tertiary amyl alcohol 88ml (2-methyl-2-butanols)
With 1 (7.9g, 28.5mmol) and described epoxide 2 (10g, 26.5mmol) mixture heating up in Virahol (88ml) makes 3 to form fully to 82 ℃ of reflux temperatures and continue 72 hours.
Solution with 3 is chilled to 0 ℃ also with anhydrous HCl gas disposal, and mixture wore out 3 hours between 0-5 ℃.The pH of mixture is transferred to 12 make the hydrolysis reaction all standing by adding 50%NaOH lentamente, keep temperature to be lower than 25 ℃ simultaneously.
With mixture partition between acetate isopropyl esters (200ml) and water (50ml), mixture is stirred and layering then, water extracts with acetate isopropyl esters (50ml) again.
The acetate isopropyl esters solution concentration of J to about 100g/L, is added entry, make hot acetate isopropyl esters solution saturated.With mixture inoculation and cooling, obtain J (15.1g, 90%) by epoxide 2.
Embodiment 6 is transformed into indene oxide suitable-1-amino-2,3-dihydro-2-indanol raw material Mol.Wt. g or ml mmol indene oxide 132 1ml 8.33 acetonitriles 41 10ml 244 water 18 2.15ml 119.4 dense H 2SO 498 0.92ml 16.65N KOH, 57 3.0ml 15Dowex 50 * 4 (H+) 1.9meq/ml 15ml wet resin 28.5meq methyl alcohol, 17 50ml 50
Add 0.15ml water (8.33mmol) in the 1ml indene oxide (8.33mmol) in being dissolved in the 10mL acetonitrile, mixture is cooled to 0-5 ℃ in ice bath.Drip the vitriol oil, keep temperature of charge to be lower than 10 ℃ simultaneously.After all acid add, temperature is risen to 20-25 ℃, settled solution was worn out 30 minutes.
In this mixture, add 2ml water and with solution heating 30 minutes.When the Jia oxazolin all is converted into suitable-amino-2, behind the 3-dihydro-indene alcohol, reaction mixture is cooled to room temperature.
(it is 90% of a theoretical value with respect to sulfuric acid for 3ml, 15mmol) solution to add 5N KOH.Find still there is acid in the solution with the reindeer moss detection.If pH rises to greater than 2, then reacylation can take place, amino-2, the productive rate of 3-dihydro-indene alcohol will reduce.Filtering white solid (K 2SO 4).
Stir and to add Dowex resin 15ml (wetting) down, will stir resin down aging 15 minutes and sampling is used for LC and analyzes (diluting * 50) with acetonitrile.When amino-2, when the LC peak of 3-dihydro-indene alcohol disappears, filter and collect resin, with the acetonitrile washing, use methanol wash then.
With wet resin 50ml 1N NH 3Methanol solution handle and soup compound stirred under room temperature 30 minutes.
Filter and collect resin once more and use methyl alcohol/NH 3Protection.Add 1N NH again 3/ MeOH (20ml) also makes soup compound once more with resin.Remove resin, with amino-2, the methyl alcohol/NH of 3-dihydro-indene alcohol 3Solution merges and concentrates removes NH 3Final MeOH solution analyzed obtain 1.0g (productive rate 81%) and be easy to suitable-1-amino-2 with the tartrate resolution reagent, 3-dihydro-2-indanol.
The preparation of embodiment 7 racemize indene oxides
With indenes (95%, 122ml) be dissolved in methyl alcohol (812ml) and acetonitrile (348ml), filter then.Filtrate transfers to pH10.5 with the 1M aqueous sodium hydroxide solution then with 0.05M SODIUM PHOSPHATE, MONOBASIC (116ml) dilution.(35%, 105ml) water (53ml) dilution, and adding in 3 hours maintain the temperature at 25 ℃ simultaneously and also with 1M aqueous sodium hydroxide solution (120ml altogether) pH are remained on 10.5 with aqueous hydrogen peroxide solution.
After 6 hours, add 1M pyrosulphite hydrogen sodium water solution (26ml), make pH greater than 8.3 by adding the 1MNaOH aqueous solution (39ml) simultaneously.Add entry (700ml) and use methylene dichloride (580ml and 300ml) to extract in mixture, it is 600ml that the organic extract liquid that contains indene oxide (117g) that merges is evaporated to volume.
Embodiment 8 (1S, 2R)-preparation of indene oxide
In J.Organic Chemistry, method makes product described in 43,4540 (1978) (at these as this paper reference) according to people such as D.J.O ' Donnell, (1S, 2R)-indene oxide.
The preparation of embodiment 9 suitable-1-amino-2.3-dihydro-2-indanols
To be diluted to the indene oxide that cumulative volume is 600ml (117g) with methylene dichloride dilutes with acetonitrile (600ml) and is cooled to-20 ℃.Add methylsulfonic acid (114ml) then, mixture is warmed to 25 ℃ and aging 2 hours.Add entry (600ml) and mixture is descended heating 5 hours in 45 ℃.Tell organic phase, water is in the further heating 4 hours that refluxes down, and concentration is about 200g/L.With 50% aqueous sodium hydroxide solution the pH of solution is transferred to 12.5, be chilled to 5 ℃ and filter then, vacuum-drying obtains cis-1-amino-2,3-dihydro-2-indanol.
Embodiment 101S-amino-2, the preparation of 3-dihydro-2R-indanol
With (1, S, 2R)-(250g 0.185mol) is dissolved in chlorinated benzene (300ml) and the heptane (1200ml) indene oxide (85%ee) and so that temperature is lower than approximately-10 ℃ speed joins methylsulfonic acid lentamente (250ml is in acetonitrile 0.375mol) (1250ml) solution.Reaction mixture is warmed to 22 ℃ and aging 1.0 hours.Also distillation is concentrated to add entry in mixture, reaches 100 ℃ until interior temperature.Reaction mixture was heated 2-3 hour down in 100 ℃, be cooled to room temperature then.Add chlorinated benzene (1000ml), stir the mixture, tell organic phase.Still contain 1S-amino, 2, the water of 3-dihydro-2R-indanol (85%ee, 165g, 60%) transfers to pH12 with 50% aqueous sodium hydroxide solution, and filter and collect product and, obtain 1S-amino in 40 ℃ of following vacuum-dryings, 2,3-dihydro-2R-indanol (85%ee, 160g).
Embodiment 111S-amino-2, the preparation of 3-dihydro-2R-indanol
Will (1S, 2R)-(250g 0.185mol) is dissolved in chlorinated benzene (300ml) and the heptane (1200ml) and joins oleum (21%SO lentamente so that temperature is lower than the speed of-10 ℃ of pacts indene oxide (85%ee) 3, in acetonitrile 184ml) (1250ml) solution.Reaction mixture is warmed to 22 ℃ and aging 1.0 hours.Also distillation is concentrated to add entry in mixture, reaches 100 ℃ until interior temperature.Reaction mixture was heated 2-3 hour down in 100 ℃, be cooled to room temperature then.Add chlorinated benzene (1000ml), stir the mixture, tell organic phase.Still contain 1S-amino, 2, the isopyknic dilution in acetonitrile of water of 3-dihydro-2R-indanol (85%ee, 205g, 74%) transfers to pH 12.5 and tells organic phase with 50% aqueous sodium hydroxide solution, and remaining water extracts with acetonitrile again.Acetonitrile extraction liquid vacuum concentration with merging obtains 1S-amino, and 2,3-dihydro-2R-indanol (85%ee, 205g).
In addition, still contain 1S-amino-2R-2, the water of 3-indanol (85%ee, 205g, 74%) transfers to 12.5 with isopyknic butanols dilution and with 50% aqueous sodium hydroxide solution with pH, tells organic phase.Organic phase is washed with chlorinated benzene, adds L-tartrate and dephlegmate, and crystallization goes out described amino-2, the tartrate of 3-dihydro-indene alcohol
The application of embodiment 12 benzonitriles
Under 25 ℃, be dissolved in indene oxide (5g) in the benzonitrile (50ml) and add sulfuric acid (98%, 2.25ml).Mixture dilutes with 5M aqueous sodium hydroxide solution (50ml) and uses dichloromethane extraction.With the organic extract liquid vacuum concentration, obtain the 5.03g oxazoline.
Embodiment 13 suitable-1-amino-2, the fractionation of 3-dihydro-2-indanol
With suitable-1-amino-2,3-dihydro-2-indanol (100g) is dissolved in the methyl alcohol (1500ml) and adds methyl alcohol (1500ml) solution of L-tartrate (110g), with mixture heating up to 60 ℃ and be cooled to 20 ℃, filter and vacuum-drying, obtain the 1S-amino of methanol solvate thing form, 2,3-dihydro-2R-indanol L-tartrate (88g).
Embodiment 141S-amino-2, the preparation of 3-dihydro-2R-indanol
With 1S-amino, 2,3-dihydro-2R-indanol L-tartrate methanol solvate thing (88g) water-soluble (180ml) also is heated to 55-60 ℃.Make the solution clarification and pH is transferred to 12.5 by filtration with 50% aqueous sodium hydroxide solution.In 2 hours, mixture is chilled to 0-5 ℃, under this temperature, wore out 1 hour then, filter,, obtain 1S-amino with cold water washing and in 40 ℃ of following vacuum-dryings, 2, (100%ee, purity is 99% to 3-dihydro-2R-indanol, 37g).
Embodiment 15 is with 2, and 3-dihydro-1,2-indanol are transformed into suitable-1-amino-2,3-dihydro-2-indanol Raw material Mol Wt g or ml mmol2,3-dihydro-1,2-indenes glycol 150 300mg 2 acetonitriles 41 2.5ml 47.3 water 18 0.04ml 2 sulfuric acid 98 0.22ml 45N KOH 57 1.6ml 8.0Dowex 10ml50 * 4 (H+) methyl alcohol (1ml NH 3) 30ml
Under 0-10 ℃, the 300mg 2 in being dissolved in the 3mL acetonitrile that contains 0.04ml water, dripping volume in the 3-dihydro indenes glycol is the dense H of 0.22ml 2SO 4After adding, remove ice bath and material is heated to room temperature.Aging after 30 minutes, the settled solution sampling is used for Ic analyzes (dilution * 500).After all glycol are consumed, solution further with water treatment and in vapor bath reflux, with oxazoline that hydrolysis is stated.
When Ic analysis revealed hydrolysis fully the time, add 1.6ml 5N KOH neutralisation of sulphuric acid.By filtering vitriolate of tartar in the solution.
To suitable amino-2 in the filtrate, the 3-indanol is analyzed, and contains 196mg (66% of theoretical value, with the unreacting material calibration, it should be 75%).Make solution through 10mL Dowex50 * 4 (H+), used pillar is carried out product detect, all amino-2, the 3-dihydro-indene alcohol is adsorbed.Resin with methanol wash after, product 1M NH 3(anhydrous) solution dilution.The ammoniacal liquor methanol solution is concentrated, remove NH 3, analyze the final amino-2 of preparing to be used to split test, 3-dihydro-indene alcohol solution.(175mg, perhaps when the unreacted 1 is not calibrated, for theoretical value 59%).
Embodiment 162, the preparation of 3-dihydro-indene alcohol reagent
According to people such as S.M.Sutter in J.Am.Chem.Soc., 62,3473 (1940) and people such as D.R.Dalton in J.C.S.Chem.Commun., method described in 591 (1966) makes compound (±)-anti--2-bromo-1-2,3-indanol.In J.Org.Chem., method described in 43,4540 (1978) makes compound (+)-anti--2-bromo-2 according to people such as M.Imuta, 3-dihydro-1-indanol and suitable-and anti--2,3-dihydro-1,2-indenes glycol.
Embodiment 17 by instead-2-bromo-2,3-dihydro-1-indanol prepares suitable-1-amino-2,3-dihydro-2-indanol
Will anti--2-bromo-2,3-dihydro-1-indanol (10g, 46.9mmol contain the dilution in acetonitrile of 0.8ml water with 100ml) is cooled to-5 ℃ and add the vitriol oil (5.2ml).With mixture ageing 1 hour, add the 5M potassium hydroxide aqueous solution then, regulate pH to 11.Reaction mixture is filtered, remove sulfuric acid sylvite.With sulfuric acid aqueous acetonitrile filtrate is transferred to pH and be lower than 2 and be heated to 80-100 ℃, acetonitrile is removed in distillation, obtains suitable-1-amino-2, the aqueous solution of 3-indanol.With this solution concentration to volume is 20ml, transfers to pH12.5 with potassium hydroxide then.The product crystallization filters and vacuum-drying, obtains suitable-1-amino-2,3-dihydro-2-indanol (4.25g).
Embodiment 18 by suitable-(1S, 2R)-2,3-dihydro indenes glycol prepares suitable-1S-amino-2,3-dihydro-2R-indanol
With suitable-(1S, 2R)-2,3-dihydro indenes glycol (1g) is dissolved in the acetonitrile (10ml), is cooled to 0 ℃ and add the vitriol oil (1.0ml).Be warmed under 20 ℃ of conditions,, adding entry (0.8ml) and the mixture reflux with mixture ageing 40 minutes.Add 5M potassium hydroxide aqueous solution (1.6ml), pH is transferred to greater than 11 solids (vitriolate of tartar) that also filtering generated, obtain suitable-1S-amino-2, the aqueous solution of 3-dihydro-2R-indanol (0.79g, productive rate are 66%).
Embodiment 19 is by instead-2,3-dihydro-1, and 2-indenes glycol prepares suitable-1-amino-2,3-dihydro-2-indanol
To be dissolved in anti--2 in the acetonitrile (25ml), 3-dihydro-1,2-indenes glycol are chilled to 0 ℃ and add the vitriol oil (1.1ml).Mixture is warmed to 20 ℃ and aging 3 hours gradually.Add entry (2ml), with the mixture reflux.Add the concentrated sodium hydroxide aqueous solution, pH is transferred to 12.The solid that filtering generates obtains suitable-1-amino-2, the moisture acetonitrile solution of 3-dihydro-2-indanol (1.02g, productive rate are 63%).
Embodiment 20 is by suitable-2,3-dihydro-1, and 2-indenes glycol prepares suitable-1-amino-2,3-dihydro-2-indanol
With suitable-2,3-dihydro-1,2-indenes glycol (1.0g) is dissolved in acetonitrile (20ml), is cooled to-40 ℃ and add oleum (21%SO 3, 0.8ml).Be warmed to gradually under 0 ℃ of condition, with mixture ageing 1 hour.Add entry,, obtain suitable-1-amino-2, the aqueous solution of 3-dihydro-2-indanol mixture heating up to 80 ℃ 1 hour.
The preparation of embodiment 21 acid amides 14
Figure A9619373000251
(-)-suitable-1-amino-2,3-indane-2-alcohol (11) 900g 6.02mol (99.7 percent by weight, area is 99.9%,>99.5%ee) yellow soda ash monohydrate 760g 6.13mol methylene diethyl ether (DEM) 56.3L3-phenyl propionyl chloride (13) 1.05kg 6.23mol methylsulfonic acid (MSA) 18.6g 0.19mol2-methoxyl group propylene (95%, GC records) 1.28L 13.3mol5%NaHCO 3Aqueous solution 10.8L water 26.2L
In 100 liters of four-hole reactors that thermocouple probe, mechanical stirrer and nitrogen inlet conduit and bubbler are housed, will be by (-) among the 40L DEM-suitable-1-amino-2,3-indane-2-alcohol (11,900g, 6.02mol) and aqueous sodium carbonate (760g, 6.13mol, Na 2CO 3H 2The 6.4L aqueous solution of O) paste mixture of Gou Chenging is heated to 46-47 ℃ and aging 15 minutes.Reaction mixture is heated to 46-47 ℃ and aging 15 minutes, to guarantee the solid dissolving.The pH of water is 11.5.(1.05kg, 6.23mol), in adding 13 processes, interior temperature rises to 59 ℃ by 47 ℃ to add pure 3-phenyl propionyl chloride 13 in 2 hours in 47 ℃-59 ℃.In adding the acyl chlorides process, go out oxyamide 12 by crystallization in the solution.After adding, reaction mixture was worn out 0.5 hour down in 59 ℃, be warmed to 72 ℃ then, to guarantee the solid dissolving.Temperature is risen to 72 ℃, make the oxyamide dissolving, thereby can obtain being suitable for the homogeneous phase sample of HPLC test and having simplified phase process.Reaction process is analyzed with HPLC and monitored: 60: 40 acetonitrile/5.0mM are respectively KH 2PO 4And K 2HPO 4, retention time is about: retention time (branch) material 4.1 oxyamides 126.3 suitable-amino-2, the esteramides that 3-indanol 1112.5 generates
After adding acyl chlorides, in 72 ℃ aging 0.5 hour down, the area percentage that reaction mixture carries out HPLC analysis revealed 11 be~0.6%, the area percentage of the esteramides of generation be~0.2% and the area percentage of oxyamide be 98.7%.In acetone compound 14, fail to remove effectively oxyamide 12.Tell water and with organic phase with twice of 4.5L water washing.Washed organic phase concentrated and through the normal pressure azeotropic distillation drying.Initial volume~40L is concentrated into 27L.Add altogether the freshly prepd DEM of 16L and material is concentrated into 40L under 88 ℃-89 ℃.
Under 30 ℃, the anhydrous DEM soup compound of oxyamide 12 is handled with 1.28L 2-methoxyl group propylene, handle with 18.6gMSA subsequently.Add MSA in the presence of no 2-methoxyl group propylene, the result can generate the amine ester.When finally forming acetonide, in the alkaline purification process, this impurity will be transformed into oxyamide 12.The 1.0ml sample with the dilution of 1.0ml water, be found that its pH is 2.8-3.0.The gained mixture was worn out 3 hours down in 39 ℃-40 ℃.The process of described generation acetonide is analyzed with the HPLC under above-mentioned the same terms in the present embodiment and is monitored.Retention time is about: retention time (branch) material
4.1 oxyamide 12
6.9 methylene radical ketone acetal impurity
9.0 acetonide 14
12.5 esteramides by product
Mixture is worn out under 38-40 ℃, until 12<0.4A%.The distribution plan of typical HPLC area percentage is as follows: the area percentage of oxyamide 12 is 0.4%, the area percentage of acetonide 14 is 96.9%, the area percentage of esteramides by product is 0.2%, and the area percentage of methylene radical ketone acetal impurity is 1.1%.Reaction mixture is cooled to 24 ℃ and make the reaction all standing with 10.8L 5% sodium bicarbonate aqueous solution, tells water and with organic phase usefulness 10.8L water washing twice, the pH of water lotion is 7.6.If pH is low excessively, show that the acetonide group may be hydrolyzed into oxyamide 12 again.The organic phase (34.2L) of washing is concentrated through the normal pressure distillation under 78 ℃-80 ℃, and finally reaching volume is 3.5L.The acetonide concentrated solution is made~525g/L, so that the loss in the sepn process is reduced to minimum level.14 hot DEM solution is cooled to 57 ℃, inoculates and further be cooled to 0 ℃ with 0.5g 14; Aging 0.5 hour.Between 53 ℃-55 ℃, product is gone out by beginning crystallization in the solution.The filtering separation product and with wet cake with cold (0 ℃) DEM (300ml) washing, washed filter cake obtains 1.74kg acetonide 14 (90%, HPLC area percentage>99.5%) in 30 ℃ of following vacuum (26 " Hg) drying.
Embodiment 22 prepares acetonide 14 (-)-suitable-1-amino-2 by (11 tartrate) salt, 3-indane-2-alcohol winestone hydrochlorate 100g 297mmol methanol solvate thing (44.3wt% free alkali 11) yellow soda ash monohydrate 63.76g 514mmol methylene diethyl ether (DEM) 2.83L3-phenyl propionyl chloride (13) 52.7g 312mol methylsulfonic acid (MSA) 0.95g 9.86mmol2-methoxyl group propylene (95%, GC) 63ml 658mmol5%NaHCO 3Aqueous solution 520ml water 1.32L
In the 5.0L four-hole reactor that thermocouple probe, mechanical stirrer and nitrogen inlet conduit and bubbler are housed, will by (-) among the 2.0L (DEM) 11 tartrate methanol solvate things (100g, the 44.3g free alkali, 297mmol) and aqueous sodium carbonate (63.8g, 514mmol, Na 2CO 3H 2The 316ml aqueous solution of O) paste mixture of Gou Chenging is heated to 50 ℃.Reaction mixture is heated to 60 ℃, does not dissolve all solids.In 50 ℃ add in following 30 minutes pure 3-phenyl propionyl chloride 13 (52.7g, 312mmol) and with mixture in 50 ℃ aging 15 minutes down.Reaction process is analyzed with HPLC and monitored: 60:40 acetonitrile/5.0mM is respectively KH 2PO 4And K 2HPO 4, 1.0ml/min.Retention time is about: retention time (branch) material 4.1 oxyamides 126.3 suitable-amino-2,3-indanol 1112.5 esteramides by products
After adding acyl chlorides, wore out 15 minutes down in 50 ℃, paste mixture is carried out the HPLC analysis revealed, 11 area percentage is~0.1%.At this moment, reaction mixture is heated to 75 ℃.
Temperature is risen to 75 ℃, be separated so that oxyamide 12 is dissolved among the DEM and simplifies.Tell water, organic phase water (250ml) washed twice.Remove sodium tartrate in aqueous phase.The pH of the aqueous solution that at first obtains is that the pH of 8.98, twice water lotions is respectively 9.1 and 8.1.The organic phase of washing is concentrated and dry through the normal pressure distillation, collect about 1.0L distillate, in matrass, add the freshly prepd DEM of 750ml again, proceed air distillation, until collecting the 350ml distillate once more.The KF of solution is 93mg/L.Exsiccant DEM solution is cooled to 30 ℃ also handles, handle with 0.95g MSA subsequently with 63ml 2-methoxyl group propylene.The 1.0ml sample is diluted with 1.0ml water, and its pH is 3.2.Reaction mixture was worn out 2 hours down in 35 ℃-42 ℃.The process of described generation acetonide is analyzed with the HPLC under above-mentioned the same terms in the present embodiment and is monitored.Retention time is the same.Mixture is worn out under 38-40 ℃, until 12<0.7A%.The distribution plan of typical HPLC area percentage is as follows: the area percentage of oxyamide is 0.4%, the area percentage of acetonide 14 is 96.9%, the area percentage of esteramides by product is 0.2%, and the area percentage of methylene radical ketone acetal impurity is 1.1%.Reaction mixture is cooled to 20 ℃, removes by filter muddy thing and make the reaction all standing, tell water and with organic phase 500ml water washing, the pH of water lotion is 7.4 with 520ml 5% sodium bicarbonate aqueous solution.With the organic phase of washing (~2.0L) under 78 ℃-80 ℃, concentrate through the normal pressure distillation, finally reaching volume is 1.0L.In the sepn process, the acetonide concentrated solution is remained on~525g/L, so that the loss in the sepn process is reduced to minimum level.14 hot DEM solution is cooled to 50-52 ℃, inoculates and further be cooled to 5 ℃, aging 20 minutes with the 100mg product.Crystallization went out during product began by solution in the time of 50 ℃.The filtering separation product and with wet cake (2 * 40ml) washings, washed filter cake obtains 83.8g acetonide 14 (87.9%, HPLC area percentage>99.5%) in 30 ℃ of following vacuum (26 " Hg) drying with cold (0 ℃) DEM.
The preparation (-) of embodiment 23 acetonides 14 (acetic acid isopropyl esters solvent)-suitable-1-amino-2; 3-dihydro 80g 535mmolization indenes-2-alcohol (11) (98.5wgt%) acetic acid isopropyl esters (IPAC) 1.2L water 560ml5N NaOH 116ml 580mmol3-phenyl propionyl chloride (13) 90.8g 539mmol methanesulfonic acid (MSA) 1.1ml 17.0mmol2-methoxyl group propylene (95%, GC) 119ml 1.24mol5%NaHCO3Aqueous solution 950ml water 400ml methylcyclohexane 2.25L
Will be in (-) in 1.2L IPAC and the 560ml water-suitable-1-amino-2, ((90.8g 539mmol) handles 3-indane-2-alcohol 11 with 5 for 80g, mixture 535mmol), (116ml 580mmol) remains on pH between the 8.0-10.5 with 5N sodium hydroxide down in 70-72 ℃ simultaneously.
Reaction process is analyzed with HPLC and monitored: 60:40 acetonitrile/5.0mM is respectively KH 2PO 4And K 2HPO 4Retention time is about: retention time (branch) material 4.1 oxyamides 126.3 suitable-amino-2,3-indanol 1112.5 esteramides by products
Reaction is when finishing, tell water and with organic phase in 72 ℃ of-73 ℃ of following waters (400ml) washing, the pH of water and the pH of water lotion are respectively 8.1 and 7.9.Wet IPAC is dry through the normal pressure distillation, adds 3.0L IPAc altogether, the KF that reduces material extremely<100mg/L, final volume is~1.60L.(119ml 1.24mol) handles, and (1.1ml 3.2mol%) handled 4.5 hours with MSA down in 35 ℃-38 ℃ subsequently with the IPAC soup compound of gained oxyamide 12 2-methoxyl group propylene.The process of described generation acetonide is analyzed with the HPLC under the same terms described in the foregoing description and is monitored.Mixture is worn out the area percentage until 12≤0.4% under 38-40 ℃.Reactant was removed by filter turbidity and precipitation and made the reaction all standing with cold sodium hydrogen carbonate solution (950ml) in 15 minutes.Tell water and, sodium hydrogen carbonate solution is chilled to 0 ℃-5 ℃ organic phase water (400ml) washing.The PH of water and the pH of water lotion are respectively 7.5 and 7.9.Carry out air distillation, change solvent into methylcyclohexane by IPAC.Before normal pressure concentrated, initial volume was 1.65L.Add the 1.5L methylcyclohexane altogether, finish solvent and change the methyl cycloalkyl into by IPAC.After the solvent conversion was intact, the temperature of product was 101 ℃, and the final volume of material is~900ml.Material is heated to 65 ℃-70 ℃,, is cooled to 55 ℃ then, with the product inoculation and be cooled to 0 ℃ to guarantee solid dissolving.With mixture in 0 ℃ aging 15 minutes down, the filtering separation product also washs with cold methylcyclohexane (200ml), washed filter cake obtains 151g acetonide 14 (87.5%, HPLC area percentage>99.5%) in 30 ℃ of following vacuum (26 " Hg) drying.
Embodiment 24
Figure A9619373000301
Figure A9619373000311
Acetonide, (14) [321.42] 200G 0.617mol, (99.1wt%) allyl bromide 98 [120.98] 77.6g 53.6ml 0.642molLDS, (FMC9404) THF solution 518ml 0.684mol citric acid [192.1] the 35.73g 0.186mol of 1.32M sieve exsiccant THF 1.43L water 1.05L0.3M H 2SO 41.18L6%NaHCO 31.18LIPAc
Under 25 ℃ of nitrogen atmosphere mechanical stirring, (200g, 0.622mol 99.1wt%) are dissolved among the 1.25L sieve exsiccant THF (KF=11mg/L), and this moment, the KF of solution was 40mg/L with the crystallization of acetonide 14.Solution is carried out the circulation that three times vacuum is cleaned, fully remove institute's dissolved oxygen in the solution.
Add allyl bromide 98 in THF solution, gained KF is 75mg/L.With KF is that prefabricated-LDS that 200mg/L contains above contained 10% alkali in this step finishes conversion (>99.5%) by typical method, then solution is cooled to-20 ℃.Temperature of reaction is remained on-20 ℃ speed, adding hexamethyl two silicon Lithium Azides (LDS, THF solution 1.32M), lasting 30 minutes of the process of adding LDS in described allyl bromide 98/14 solution.Wear out under in-15 to-20 ℃ in the mixture and reach>make 99% the time reaction all standing when transformation efficiency.Reaction is analyzed with HPLC.Retention time is about: hydroxyl ethyl ketone compound by product=5.3 minutes, ethylbenzene=5.6 minute, acetonide 14=6.6 minute; Allylacetone compound 15=118 minute; Epi-15=13.3 minute.After 1 hour, reaction reaches transformation efficiency>99.5%.By add citric acid (35.7g, 186mlTHF solution 0.186mol) makes the reaction all standing, mixture in 15 ℃ aging 30 minutes down, add citric acid subsequently.Mixture decompression (about 28 " Hg) is concentrated into 30% of initial volume, keeps temperature in the reaction flask simultaneously, in dry ice cooling bath, collect distillate 900ml at 11-15 ℃.Use 2.7L acetate isopropyl esters (IPAc) conversion solvent altogether then, continue underpressure distillation simultaneously.Work as warp 1H NMR (referring to GC method analysis report) analyzes THF and remains on<during 1mol%, stop the solvent conversion.Temperature is the highest in still-process must not be above 35 ℃.Crude product among the IPAc washs with 1.05L distilled water, 1.18L 0.3M sulfuric acid and 1.18L 6% sodium bicarbonate aqueous solution.After the washing, the volume of organic phase is 1.86L.
The pH of three water lotions of mixture is respectively 6.5,1.3 and 8.5.Carry out HPLC analysis revealed to mixture this moment, and 15 productive rate is 93-94%, and HPLC (above-mentioned the same terms) shows required 15: the ratio of epi-15 is 96: 4.This moment the GC analysis revealed, hexamethyldisilazane produces secondary thing and is removed fully in treating processes.
Embodiment 25 NCS [133.5] 141.2g 1.06molNaHCO 3[84.01] 36.6g 0.434molNaI [149.9] 158.6g 1.06molNa 2SO 3[126.0] 80g water 1.55L
Under 25 ℃, in the IPAc solution of the allyl group acid amides 15 that above-mentioned steps obtains, add the 1.03L distilled water solution of 36.6g sodium bicarbonate and two-phase mixture is cooled to 5 ℃.Adding solid N-chlorosuccinimide (141.2g, 1.06mol), behind the adding NCS, no exothermic phenomenon.(158.6g 1.06mol), keeps reaction mixture in 6-11 ℃ simultaneously to add sodium iodide in this mixture.Reinforced process continues 30 minutes, and mixture becomes black.Mixture is warmed to 25 ℃ and wear out under vigorous stirring.Reaction process is monitored with HPLC: identical systems as mentioned above, and retention time is about: iodohydrin 16, epi-16, two-epi-16=8.1 minute; Allyl group acid amides 15=11.8 minute.2.25 hour after HPLC carries out analysis revealed to mixture, transformation efficiency is>99.5%.In the crude mixture 16: epi-16: the ratio of the diastereomer of two-epi-16 is roughly 94: 2: 4, at this moment, can split each component according to this system.Stop to stir and layering, in 10-15 minute, in organic phase, add sodium sulfite aqueous solution (80g, 0.635mol, 400ml).After adding S-WAT, mixture temperature is risen to 26-29 ℃, mixture stirred 40 minutes down in 25 ℃.After the sulphite washing, solution decolours basically.Layering; This moment, the KF of organic phase was 25g/L, and the volume of organic phase is 1.97L.With HPLC mixture is carried out quantitative analysis (identical systems as mentioned above) and show, at this moment, the overall yield of iodohydrin 11 is 86% (diastereomer to common wash-out is proofreaied and correct).
Embodiment 26 NaOMe[54.02] d=0.945 25wt%MeOH 172g0.796mol3%Na 2SO 4Aqueous solution 1.5Ln-PrOH
Iodohydrin 16 solution for vacuum (28 " Hg) are concentrated,, collect the 700ml distillate altogether, keep temperature of charge simultaneously at 22-28 ℃ with the azeotropic distillation drying material.Replace described distillate (KF=275mg/L) with 500ml IPAc.
Solution is chilled to 26 ℃ and added 25%NaOMe/MeOH solution (168.1g) in 10 minutes, add sodium methylate after, temperature is reduced to 24 ℃, it is more black that solution colour becomes, and mainly is that colloidal solid dissolves again with what generate, mixture in 25 ℃ aging 1 hour down.With HPLC (identical with above-mentioned condition) reaction is analyzed, retention time is about: epoxide epi-2=6.5 minute, and epoxide 2, two-epi-2=7.1 minute, iodohydrin 16=8.1 minute.The HPLC analysis revealed, iodohydrin is 99% to the transformation efficiency of epoxide.After 40 minutes, add 4.1g sodium methylate/methanol solution.After 20 minutes, HPLC analysis revealed, transformation efficiency are 99.5%.Make the reaction all standing by adding 366ml water down, carry out of short duration stirring (10 minutes) then, layering in 25 ℃.Find subsequently, react too aging, in pilot plant, with this understanding, wash stirring/sedimentation with water, react and arrive iodohydrin basic last time again.This situation is responsive especially for washing with water.In order to address this problem, order reacts under 15 ℃ to be carried out.Transformation efficiency reaches>99% back (adding NaOMe after 1 hour), mixture is diluted with IPAc (volume of material 40%) and the water (732ml) that increases gradually with volume under 20 ℃ washs.In washing process,, therefore can be settled out 2 prematurely because temperature is lower and mixture becomes denseer.To stir/settling time shortens to minimum (being respectively 10 minutes/30 minutes).At this moment, back reaction can be controlled at≤1%.The mixture crude product that will contain (97: 3) epoxide 2/ iodohydrin 16 separates, and obtains containing the epoxide product of 0.6% iodohydrin.The epoxide product that will contain the iodohydrin of this content further reacts, and can not make reaction complicated.(2 * 750ml) washings, after the washing, the volume of organic phase is 1.98L to organic phase with 3% aqueous sodium persulfate solution.The pH of three water lotions is respectively 10.7,9.4 and 8.6.The HPLC analysis revealed, this moment, the overall yield of epoxide 2 was 86% (4% couple-epi-2 to co-elute proofreaies and correct).The IPAc solution decompression of epoxide 2 (28 " Hg) is concentrated into volume is about 600ml, keep temperature of charge simultaneously at 15-22 ℃.By adding 750ml n-PrOH solvent is become n-PrOH, vacuum concentration to volume is about 500ml simultaneously, keeps temperature of charge<30 ℃.Concentrating/the solvent conversion process in, when temperature>35 ℃, can derive n-propyl ether by epoxide 2.Warp 1H NMR carries out analysis revealed to the solvent component, still contains<IPAc of 1mol%.In 1 hour, the heavy-gravity soup compound is cooled to-10 ℃ and aging 45 minutes.Wash with solid filtering and with the cold n-PrOH of 125ml.Product carries out drying under 25 ℃ in vacuum drying oven, obtain 188.5g epoxide 2 (0.8wt.%epi-2 is 79.3% by 14 beginning overall yields for 98.9A%, 97.6wt.%).Positive HPLC (referring to the method for analysis and research records) shows do not have two-epi-2 in isolated solid.
The preparation of embodiment 27 penult products 6
Figure A9619373000351
2 (S)-tert-butylformamide-4-N-Boc-piperazine 4 159g 557mmol (98.9wt.%, 99.6%ee) epoxide 2 (97.6wt.%, 1.0%epi-2) 200g 530mmol methyl alcohol 1.06LHCl (g) 194g 5.32mmol23%NaOH 740ml acetate isopropyl esters 4.0L water 700ml *Gauged wt.% purity
In the 2L three-necked flask of thermopair that mechanical stirrer, reflux exchanger, heating mantles, teflon coating are housed and nitrogen inlet, add 2 (S)-tert-butylformamide-4-tertbutyloxycarbonyl-piperazine 4 solid (159g, 557mmol) and epoxide 2 (200g, 530mol).Add methyl alcohol (756ml) and the gained soup compound is heated to reflux temperature.After 40 minutes, obtain homogeneous phase solution.In the reflux course, interior temperature is 64-65 ℃.Reaction process is analyzed with HPLC and is monitored: 60: 40 acetonitrile/10mM (KH 2PO 4/ K 2HPO 4), retention time is: retention time (branch) material 4.8 piperazines 46.6 methyl ethers 168.2 epoxide epi-28.9 epoxide 215.2 coupling product 5
Mixture is kept reflux state, and until the HPLC analysis revealed, the area percentage of epoxide 2 is in the 1.2-1.5 scope.At this moment, coupling product is about 94-95 area %.When reaction was finished, methyl ether 16 was 1.0-1.5A%.The typical time of realizing this conversion reaction is under the reflux state 24-26 hour.
Mixture is cooled to 5 ℃, under nitrogen atmosphere, in methanol solution, directly fed anhydrous HCl gas (194g, 5.32mol ,~10 equivalents) 2-3 hour, maintain the temperature at 5-8 ℃ simultaneously.After adding, with mixture in 5 ℃-8 ℃ aging 1-3 hour down, observed this moment gas emit (carbonic acid gas and iso-butylene (.Reaction process is monitored with HPLC: the same terms as mentioned above.Retention time is about: retention time (branch) material 6.0 Boc intermediates 177.0 suitable-amino-2,3-indanol 1111.9 penult products 615.1 coupling product 516.5 lactones 1825.0 acetonide intermediates 19
Figure A9619373000371
Mixture is worn out under 5 ℃-8 ℃, until area percentage<0.5% of HPLC analysis revealed Boc intermediate 17.At this moment, penult product 6 is about 92-93A%, 11 be<1.0A% and 18 is 0.6A%.In 5 ℃ after following 4 hours, finish deprotection.When reaction was finished, will be swift in response cooling and all standing can limit 6 and resolve into 11 and 18 under hydrolysising condition.
Figure A9619373000381
Mixture is cooled to-10 ℃-15 ℃, mixture is joined lentamente contain the 0-2 ℃ of refrigerative DI aqueous solution (700ml) and methyl alcohol 9300ml under stirring then) 5 liters of flasks that mechanical stirrer is housed in; Make the mixture pH of quenching remain on (reaction very exothermic) between the 8.5-9.0 by adding the 23wgt.%NaOH aqueous solution, maintain the temperature at 10-20 ℃ simultaneously.The pH of final product is 9.0-9.5.
Mixture extracts with acetate isopropyl esters (3.0L).Mixture is stirred and layering, and the gained water extracts with acetate isopropyl esters (1.0L) again.At this moment, the HPLC analysis revealed, 6 productive rate is 94% in the acetate isopropyl esters.The organic phase that merges (~5.0L) decompression (24-25 " Hg) is concentrated into about 1.12L, and wherein material temperature is 30-40 ℃.Temperature can rise to 40 ℃ in the solvent conversion process, does not wherein have loss of yield or degraded.Then, this solution of crude product 6 is directly used in the next step, obtains compound J.
The preparation of embodiment 28 monohydrates
Figure A9619373000382
Penult product 6 261g 499mmol saleratus 152g 1.52mol water 6.1L picolyl chlorination thing 93.3g 569mmol acetate isopropyl esters 3.17L
Acetate isopropyl esters solution (4.96L with the penult product; 52.5g/L the penult product) be evaporated to 1.18L (260g, 499mmol), temperature of charge remains on 35 ℃-44 ℃, keeps vacuum pressure simultaneously 25 " Hg.Methanol content is lower than<1.0vol%.The gained soup compound is handled (the 152g 630ml aqueous solution, 1.59mol ,~3.0 equivalents) and is heated to 60 ℃ with potassium bicarbonate aqueous solution.Then, in 4 hours, add the picolyl chlorination thing aqueous solution (the 93.8g 94ml aqueous solution; 572mmol, 1.14 equivalents).After adding 75% pyridinium chloride, material is inoculated with the J monohydrate.Temperature of charge is 60 ℃-65 ℃.
After adding, under 60 ℃-65 ℃, aging 20 hours of paste mixture.When the HPLC analysis revealed, the area percentage of penult product<1.0% o'clock, reaction is finished.The area percentage of picolyl chlorination thing is 0.5-0.8%.
Then, with material with the dilution of 2.5L acetate isopropyl esters and 1.34L water and be heated to 78 ℃.Layering and with organic phase with 78 ℃ of hot water (3 * 1.34L) washings, the hot water washing lotion removes two-alkylating J, HPLC shows, its area percentage reduces to<0.1%.
Organic phase is cooled to 75 ℃ lentamente also with J monohydrate (8.0g) inoculation, in 2 hours, further is cooled to 4 ℃ then.Mixture is filtered, collect product, (2 * 335ml) washings with wet cake vacuum (28 " Hg, 22 ℃) drying, begin separation by epoxide and obtain 273g J monohydrate wet cake, and productive rate is 79% with cold acetate isopropyl esters.
Above set forth rule of the present invention, the embodiment that is provided is used for illustration purpose, is understandable that, the present invention comprises all routine variation, change and modification in implementation process, and they are all in following claim and equivalent scope thereof.

Claims (9)

1. the method for a synthetic following structural compounds:
Figure A9619373000021
Described method comprises the following steps:
(a) about 25 ℃ to about 150 ℃ of temperature ranges, with the monovalent following formula: compound:
Figure A9619373000022
Following formula: compound with about monovalent Mixture heating up at least one hour, described mixture can at random contain suitable solvent;
(b) with acid treatment carry out deprotection and
(c) the described acid that neutralizes obtains required compound.
2. the described method of claim 1, wherein said temperature about 50 ℃ to about 120 ℃ of scopes.
3. the described method of claim 1, wherein said temperature about 65 ℃ to about 85 ℃ of scopes.
4. the described method of claim 1, wherein said suitable solvent is ester, alcohol, hydrocarbon, ether or methane amide or its mixture.
5. the described method of claim 1, wherein said suitable solvent are alcohol.
6. the described method of claim 1, wherein said suitable solvent is methyl alcohol or Virahol.
7. the described method of claim 1, wherein the deprotection reaction of step (b) carries out with HCl gas.
8. the method for a synthetic following structural compounds Described method comprises the following steps:
(a) about 65 ℃ to about 85 ℃ of temperature ranges, with the monovalent following formula: compound:
Figure A9619373000032
Following formula: compound with about monovalent:
Figure A9619373000041
Mixture heating up at least one hour, described mixture can at random contain as the methyl alcohol of solvent or Virahol or its mixture;
(b) described mixture is cooled to about 0 ℃;
(c) carry out deprotection with HCl gas; With
(d) with the NaOH neutralization, obtain required compound.
9. following formula: compound
Figure A9619373000042
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